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I feel I have a pretty decent understanding of closures, how to use them, and when they can be useful. But what I don't understand is how they actually work behind the scenes in memory. Some example code:

public Action Counter()
    int count = 0;
    Action counter = () =>

    return counter;

Normally, if {count} was not captured by the closure, its lifecycle would be scoped to the Counter() method, and after it completes it would go away with the rest of the stack allocation for Counter(). What happens though when it is closured? Does the whole stack allocation for this call of Counter() stick around? Does it copy {count} to the heap? Does it never actually get allocated on the stack, but recognized by the compiler as being closured and therefore always lives on the heap?

For this particular question, I'm primarily interested in how this works in C#, but would not be opposed to comparisons against other languages that support closures.

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Great question. I am not sure, but yes, you can keep the stack frame around in C#. Generators use it all the time (thing LINQ for data structures) which rely on yield under the hood. Hopefully I am not off the mark. if I am, I will learn a great deal. –  Hamish Grubijan Dec 18 '09 at 14:53
yield turns the method into a separate class with a state machine. The stack itself isn't kept around, but the stack state is moved into class state in a compiler-generated class –  thecoop Dec 18 '09 at 14:55
@thecoop, do you have a link explaining this please? –  Hamish Grubijan Dec 18 '09 at 15:01
Sure, read this series if you want to understand how iterators are built: blogs.msdn.com/oldnewthing/archive/2008/08/12/8849519.aspx –  Eric Lippert Dec 18 '09 at 15:18
You absolutely CANNOT "keep the stack frame around". The stack frame is on the stack! How would we pop the stack if we were keeping it alive? –  Eric Lippert Dec 18 '09 at 15:19

3 Answers 3

up vote 23 down vote accepted

The compiler (as opposed to the runtime) creates another class/type. The function with your closure and any variables you closed over/hoisted/captured are re-written throughout your code as members of that class. A closure in .Net is implemented as one instance of this hidden class.

That means your count variable is a member of a different class entirely, and the lifetime of that class works like any other clr object; it's not eligible for garbage collection until it's no longer rooted. That means as long as you have a callable reference to the method it's not going anywhere.

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Inspect the code in question with Reflector to see an example of this –  Greg Dec 18 '09 at 14:54
...just look for the ugliest named class in your solution. –  Will Dec 18 '09 at 15:03
Does that mean a closure will result in a new heap allocation, even if the value being closured is a primitive? –  Matt Nov 11 '10 at 17:14
@Matt - I wouldn't call it 'new', because as far as the resulting code is concerned your primitive was always on the stack. The needed closure is created at the same time as whatever object that will use the closure is created. –  Joel Coehoorn Nov 11 '10 at 17:31
s/always on the stack/always on the heap/ –  Joel Coehoorn Nov 11 '10 at 21:37

Your third guess is correct. The compiler will generate code like this:

private class Locals
  public int count;
  public void Anonymous()

public Action Counter()
  Locals locals = new Locals();
  locals.count = 0;
  Action counter = new Action(locals.Anonymous);
  return counter;

Make sense?

Also, you asked for comparisons. VB and JScript both create closures in pretty much the same way.

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Why should we believe you? Oh that's right... –  ChaosPandion Dec 18 '09 at 15:44

Thanks @HenkHolterman. Since it was already explained by Eric, I added the link just to show what actual class the compiler generates for closure. I would like to add to that the creation of display classes by C# compiler can lead to memory leaks. For example inside a function there a int variable that is captured by a lambda expression and there another local variable that simply holds a reference to a large byte array. Compiler would create one display class instance which will hold the references to both the variables i.e. int and the byte array. But the byte array will not be garbage collected till the lambda is being referenced.

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